ANALYSIS OF EFFECT FROM A ENERGY ASSOCIATED GAS ON THE WELL PUMPING STATION
FSBEI HPE “Ufa State Petroleum Technological University”, Ufa, the Russian Federation
Branch FSBEI HPE “Ufa State Petroleum Technological University” Sterlitamak, the Russian Federation
Currently, there is a steady increase in the cost of electricity, as well as rising prices for construction of new facilities. In addition there is a tendency of transition to independent sources of electricity process plants oil and gas industry. Application of controlled electric, powered from gas stations, becomes economically and technically appropriate.
Today, most electric group pumping stations are powered by a suitable power lines and unified energy systems. Besides, they are unregulated, that is not providing efficient power consumption.
The possibility of use as a fuel the local electric power supply (gas turbine generating set) of associated gas, burned in flares, is discussed in this article.
The calculation, showing a sufficient volume of associated gas and, as a result of technical and economic effect on the example of cluster pump station KNS-0202S, designed for pumping waste water in the reservoirs of the Krasnoyarsk-Kuedinsky oil field to maintain reservoir pressure, is represented.
From the calculations, it is clear, that the volume of gas that can be used to operate the gas turbine generating set, consisting of two such units marks Capstone C800 is sufficient; therefore the application of natural gas power plant is possible. The remainder of the APG, in order to meet the requirements of “Regulation on measures to stimulate the reduction of air pollution products flaring gas flaring” is proposed for use in the boiler room for heating of industrial premises of oil and gas workshop, or heating oil furnaces, according to the technology of oil treatment. That is why, priority access to the wholesale market of electricity, produced by the associated petroleum gas, or some products of it processing, is provided.
Further technical effect by using associated petroleum gas, achieved by eliminating the flare, is quite substantial and allows to realize the full use of the total volume.
- Ivanov, N.P., Ljuter, R.A. Turbogeneratory. Raschety i konstrukcii. M.: Jenergija, 1967. S. 97-100. [in Russian].
- PB 09-12-92. Pravila ustrojstva i bezopasnoj jekspluatacii fakel'nyh sistem. Vzamen PU i BJeF-84; vved. 21.03.1992. M.: Gospromatomnadzor, 1992. S. 12-36. [in Russian].
- Ob jenergetike: fed. zakon: prinjat Gos. Dumoj ot 09.03.2010. M.: Gospromatomnadzor, 2010. S. 1-6. [in Russian].
- Babakin V.I. GTJeA. Vmesto fakela. Jenergonadzor. M.: Inform-media. 2012. №9 (32) S.28-29.[in Russian].
- Babakin V.I. Vmesto fakela. Ispol'zovanie PNG dlja jelektroprivoda KNS. Tehnadzor: M., Inzhenernaja akademija. 2012. №9. (70) S.88. [in Russian].
cost Management; economic effect; electric; frequency converter; gas power; group pumping station; passing gas; the internal combustion engine; газовая электростанция; двигатель внутреннего сгорания; кустовая насосная станция; попутный газ; преобразователь частоты; управление затратами; экономический эффект электропривод DOI 10.17122/ogbus-2014-6-664-678 References to this article (GOST) Babakin V.I., Izotova E.V. ANALYSIS OF EFFECT FROM A ENERGY ASSOCIATED GAS ON THE WELL PUMPING STATION // Electronic scientific journal "Oil and Gas Business". 2014. №6. P.664-678. URL: http://ogbus.ru/issues/6_2014/ogbus_6_2014_p664-678_BabakinVI_ru.pdf